Understand the effects of electrostatic actuation on MEMS microsensing membrane displacement through detailed EMS Simulation software analysis.
Probe into the efficiency of low-voltage micro-thermal actuators and their ability to generate significant deflections, revealing insights into their mechanical displacement and thermal distribution.
Discover how MEMS microgrippers perform in the precision handling and manipulation of micro-objects, offering innovative solutions for micromanipulation tasks.
Explore the reliability of wire bonding in electronics packaging through comprehensive analyses with EMWorks simulation. Assess wire deflection, temperature distribution, and mechanical behavior for optimized design.
Assess the effectiveness of Magnetic Pulse Welding (MPW) in achieving high-quality welds in the aerospace and automotive industries without thermal distortion.
See how EMWorks' simulations measure up against TEAM 24 benchmarks in accurately predicting electromagnetic behavior in Switched Reluctance Machines.
Learn about effective strategies for optimizing electrostatic comb-drive actuators to increase travel distance and force, with insights from EMS simulations.
Discover how Halbach arrays improve magnetic levitation in planar actuators for precise control and enhanced efficiency, based on EMWorks simulation insights.
Assess the precision in calculating resistance for thin film resistors using EMS, bridging high-tech design with unparalleled accuracy.
Explore EMS's precision in matching the NDT benchmark TEAM Problem 15 for eddy current testing in conductive materials.
Explore advanced eddy current testing and electromagnetic simulations. Analyze probe behavior under different frequencies and crack sizes with EMWorks solutions.
Learn the precise method to calculate magnetic field strength along the axis of a cylindrical coil, employing the Biot-Savart law in an easy-to-follow guide.
Investigate how magnetic fields affect ferromagnetic spheres embedded in elastomer patterns, with a focus on magneto-structural interactions and applications.
Examine the calculation of magnetic fields on the axis of a current loop using the Biot-Savart law, with insights from EMS simulations.
Learn how EMS simulations play a crucial role in optimizing MRI coil designs for achieving uniform magnetic fields, essential for precise imaging.
Dive into the analysis of electric fields within cavities of charged spheres, illuminated by the superposition principle and EMS simulations.
Learn about the capacitance behavior of multi-layer capacitors with detailed insights and simulations. Understand the intricacies of capacitor design and performance.
Learn to effectively simulate open and short circuit tests for transformers, crucial for assessing efficiency and performance in electrical systems.
Learn how varying frequencies impact the efficiency and performance of graphite crucible induction heating systems. Discover optimization strategies for enhanced results.
Discover how magnetostriction and electromagnetic fields affect mechanical deformation in engineering applications. Learn about multi-physics simulations and material behavior for optimized designs.
Discover the crucial factors impacting eddy currents in conducting discs under time-varying magnetic fields and learn how to analyze them effectively.